DE2318330A1 - DEVICE FOR MEASURING ANGLE DEVICES AND SHAPE DEFECTS OF WORKPIECE SURFACES - Google Patents

Description

DEVICE FOR MEASURING ANGLE DEVIATIONS AND SHAPE ERRORS OF WORKPIECE SURFACES The invention relates to a device for measuring Angular deviations, form errors of workpiece surfaces and the like, with a flat measuring plate and a cylindrical measuring column.

So far, checks have been made with regard to the angular deviations and Defects in the shape of workpiece surfaces are made by the so-called light gap process. A measuring column fastened to a base substructure was used Outer surface arranged perpendicular to the surface of the base substructure and finely machined is.

The workpiece with the surface to be measured was now placed next to the measuring module placed and brought into contact with the measuring column. In the adjacent area of the measuring column and workpiece was then observed with the eye whether and on which There is a gap between the two surfaces.

The major disadvantage of checking workpiece surfaces in this way is in that this check is not an exact measurement, just an estimate is. So it is not even the absolute amount of deviation in this procedure ascertain. In addition, it is extremely difficult to find any bumps to be delimited in terms of area on the workpiece.

The object of the invention is therefore to provide a device of the initially mentioned to create the mentioned type, in the case of angular deviations, form errors of workpiece surfaces and the like can be measured accurately.

This object is achieved according to the invention in that a measuring ring is provided, which is guided free of play on the measuring column and that on the measuring ring a commercial dial gauge is attached.

The device according to the invention thus shows angular deviations and Form errors of the workpiece surfaces to be tested can be read off. Through the live broadcast Very precise measurement results are given from the test-free measuring column to the measuring ring.

In addition, the measuring ring can easily be attached to the measuring column Slide up and down using only one hand. At any point the absolute deviation from the specified value can be read off normally and directly.

So that the measuring ring slides easily, the measuring ring is distributed along the circumference and provided sliding surfaces arranged on the inner surface. With a preferred one Embodiment of the invention are the sliding surfaces in the area the upper and lower measuring ring arranged. In this way is good guidance which is applied everywhere and ensures a good adaptation of the measuring ring to the measuring module.

In a further preferred embodiment of the invention, the The measuring column is provided with an index bar and the measuring ring has an index bar comprehensive Klernm device. In this way it is a highly accurate vertical given in the measuring direction. The measuring ring can be removed by simply loosening the clamping device can be removed very quickly from the measuring column and pushed back on again.

Nevertheless, this measure ensures that the cylinder guide is completely free of play given.

So that the measuring column cannot warp or change in any other way the index bar is by means of a cold-hardening connection on the measuring column attached.

In one embodiment of the invention, the index bar is on the Measuring column glued on, extends over the entire height of the measuring column and is finely machined.

In this way one heals, especially through the retrospective Fine machining, an exact guide on the column. In addition, almost the entire height of the measuring column can be used for measurement.

It is advantageous if the clamping device is at least up to Self-locking of the dead weight of the complete measuring ring is adjustable. Through this is it possible to hold the measuring ring at any point on the measuring column, an accurate reading make and, if necessary, take notes without changing the measuring point. In addition, setting the Measuring ring to a very specific point without difficulty and in a simple way Way possible.

In another aspect of the invention, all sliding surfaces are made made of a plastic, preferably Delrin from Du Pont. The main advantage What is important about plastic, especially Delrin plastic, is that it has good sliding properties having.

The special plastic Delrin also shows almost the strength of aluminum and is resistant to mechanical and chemical attacks in a wide temperature range resistant and has almost no water absorption capacity. That way it stays there is always an even and smooth sliding surface, which is also protected by dirt particles cannot be easily destroyed. The sliding surfaces point for self-cleaning dirt grooves extending transversely to the sliding direction.

In a further embodiment of the invention, one of the sliding surfaces is the clamping device arranged diametrically opposite and there are the two other sliding surfaces on both sides of the first sliding surface at an angle, preferably 600 staggered. In this way it is a fully fitting and exact one The measuring ring is guided on the measuring column after the clamping device has been tightened.

It is not possible here that one or the other or even only part of a sliding surface is not in contact with the measuring column.

In a further embodiment of the invention, the clamping device two centering strips, which are movably guided on the measuring ring. The Centering bars on their the side facing the measuring column an approximately triangular incision that receives the index bar and on its sloping sides the sliding surfaces are provided. Only through the division of the centering bars is ensures that the self-weight of the measuring ring is self-inhibiting can be.

Furthermore, the centering bars apply evenly in this way the index bar.

It is advantageous if the centering strips in one on the outer circumference the measuring ring attached housing are arranged and if a set screw on the housing is arranged. In this way, the measuring ring only needs a slightly larger diameter as the measuring column. In addition, the clamp can be easily adjusted and adjusted will.

In a further embodiment of the invention, the centering strip has two Jaws that are connected to one another by a web, the jaws the Penetrate the measuring ring in the area of the upper and lower edge. This is a Good support of the centering bar in the area of the two pairs of jaws is guaranteed. So that the contact pressure is evenly applied to the upper and lower jaws and is not transferred by the adjusting screw approximately in the middle between the jaws, a movable plate is arranged between the adjusting screw and the centering strips, which is provided with cutouts in the area between the contact surfaces.

In a further preferred embodiment of the invention, has the measuring column has a high dead weight, an optimal ratio of base area to Height and a finely machined base and cylinder surface. on In this way, a base substructure can be dispensed with, i.e. the measuring column can be placed on any measuring plate that has been checked for evenness The measuring column is stable and does not need to be held during the measurement. This means that the workpiece to be measured can also be placed directly in the vicinity of the measuring column so that a relatively small boom is sufficient to attach the dial gauge.

The stability of the measuring column is such that when using a Force to move the measuring ring out of the self-locking area of its own weight to move on the measuring side, the deviation from the vertical is a maximum of 1 vü m.

It is advantageous if the measuring ring has a support arm for the dial gauge has, which is arranged diametrically opposite the clamping device. this is particularly advantageous for the measurement accuracy, since the rigid in this area Guide surfaces are arranged. In a further embodiment of the invention, the Measuring two handles, offset by 900 to the clamping device and on the top Edge of the measuring ring are arranged. Because the measuring ring along the measuring column is best is moved from top to bottom, this arrangement of the handles is particularly favorable, since there is almost no leverage affecting the accuracy of the measurement.

Further details and embodiments of the invention are as follows Refer to the description in which the invention based on that shown in the drawing Embodiment is described and explained in more detail. 1 shows the overall perspective view the device according to the invention including a workpiece to be measured, Fig. 2 is a plan view of the measuring column and measuring ring, Fig. 3 is a section along the Line 111 - III of FIGS. 4 and 5, but with a measuring column, FIG. 4 shows a section along the line IV - IV of FIG. 2, but without a measuring column, FIG. 5 is a section along the line V - V of FIG. 2, also without a measuring column and FIG. 6, three details the device according to the invention.

In FIG. 1, the device 11 according to the invention during a measuring process shown.

The inventive device 11 has a measuring column 12 and a Measuring ring 13 to which a commercially available dial gauge 16 is attached via a support arm 14 is, which measures deviations from a target value in the .gr range. The measuring column 12 is up on a flatness-controlled measuring plate 17, for example made of granite can be. The workpiece to be measured is located next to the device 11 according to the invention 18. The workpiece 18 is also in this fold, for the sake of demonstration only a column. The workpiece 18 is also placed on the measuring plate 17 and for so long moved towards the device 11 according to the invention until the probe 19 of the dial gauge 16 rests against the surface of workpiece 18 to be measured or is slightly depressed so that the pointer of the dial indicator 16 is at zero. This can be done at take place anywhere on the surface of the workpiece 18 to be measured. Thereafter the measuring ring 13 is moved up and down on the measuring column 12, the deflection of the The dial gauge is observed on the positive or negative side and possibly

is noted point by point. The accuracy of the device according to the invention 11 ranges between 1 and 2 µm.

The measuring column, which in the illustrated embodiment for easy Transport has a handle 2 'at its upper end, is cylindrical and massive. The lower surface of the measuring column is on the measuring plate 17 rests, and with regard to its cylindrical surface precisely on flatness processed and controlled. Furthermore, the squareness of the footprint and cylinder area given. Such pillars are in themselves commercially available, they are however, reworked to serve as a measuring column.

The measuring column has a very high dead weight and ratio from the contact area to the height is optimal. In this way it results for the measuring column 12 has a high stability, so that the above-mentioned accuracy of the device 11 according to the invention when moving the measuring ring 13 up and down longitudinally of column 12 isf ensured at any point on the column. The deviation from the Vertical is a maximum of 1 / um. In the illustrated embodiment, has the measuring column has a diameter of about 120 mm and a height of about 500 mm, where it has a dead weight of about 21 kg.

The height of the measuring ring is about 80 mm.

The measuring column 12, on which the measuring ring 13 is guided without play, has Furthermore, a guide bar 22, which on the measuring column 12 at any point is glued on. the Guide bar 22 extends over the entire Height of the measuring column 12 and has an approximately trapezoidal cross-section. It goes without saying the larger base facing the measuring column 12 and correspondingly concave educated. After the guide strip 22 has been attached by means of a cold-setting Connection to the measuring column 12, the guide bar 22 is subsequently machined. In this way it is ensured that the guide bar 22 is exactly perpendicular to the Contact area runs.

The measuring ring 13 is on four. Place its circumference on the measuring column 12 led. The one guide is effected by a clamping device 23 that the Guide bar 22 engages around.

The second guide 24 is exactly diametrically opposite, i.e. around 1800 arranged offset to the clamping device 23 or feed bar 22. The third tour 26 and the fourth guide 27 are at an angle of about 60 ° on both sides moved to the second guide 24 angeoranet. The guides 24, 26, 27 do not run over the entire height of the measuring ring 13, but are divided. Tours 24, 26, 27 each have two small supports 28, 29, which have an approximately square base area and an inwardly open, approximately semi-cylindrical recess 311. the Carriers 28 are near the upper and the carriers 29 near the lower edge of the measuring ring 13 arranged. The carriers 28, 29 have Vorqzrunge 32 and are over these projections 32 attached to the measuring ring 13 by means of a press fit. In the recesses 31 are sliding bodies 33 firmly inserted. The sliding bodies 33 have their protruding from the recesses 31 Long sides of sliding surfaces 34 which are adapted to the circumference of the measuring column 12, thus have a concave shape, and somewhat protruding in relation to the carrier 28, 29 are arranged. The sliding surfaces 34 are with dirt grooves 36 provided, of which two distributed in the illustrated embodiment are arranged over the length of the sliding body 33. The dirt grooves 36 run transversely to the longitudinal direction of the sliding body 33 over the entire width of the sliding surfaces 34 away.

The sliding bodies 33 originally have the shape of pins and are ground to this shape. The sliding bodies 33 are made of plastic, and made of the plastic Delrin from Du Pont. The plastic Delrin is here particularly suitable because it has a high strength similar to that of aluminum or tin is enough. In addition, this special plastic exhibits special good sliding properties and there is no risk of the measuring column 12 being damaged could be. In addition, the accuracy and quality of the sliding surface changes, for example due to dirt particles, not at all. This plastic also shows no water absorption capacity.

It should be noted that Delrin is a registered trademark of the Du Pont company.

The clamping device 23 overlaps the guide strip 22 two centering strips 37, 38, a web 39, a housing 41 and an adjusting device 42 on. The housing 41 is approximately U-shaped, extends over the whole Height of the measuring ring 13 and lies with its two longitudinal legs 43 on the measuring ring 13 at. For this purpose, the end face of the legs 43 is concave. The two Longitudinal leg 43 connecting transverse leg 44 is in the area of its upper and its lower edge with two bores 46 each provided the screws 47 record. On the inside of the measuring ring 13 are two strips 48 over pins attached to the measuring ring 13 by means of a press fit. The strips 48 also run over the entire height of the measuring ring 13 and have threaded holes at their upper and lower ends 49. The strips 48 are in alignment with the two longitudinal legs 43 of the housing 41. The measuring ring 13 also has through bores 51 which are connected to the through bores 46 of the housing 41 and with the threaded bores 49 of the strips 48 are aligned. the End faces of the two longitudinal legs 43 are between the two through bores 46 milled out somewhat so that the housing is only in the area of the bores 46 on Measuring ring 13 is applied. The transverse leg 44 of the housing 41 has in the area of its In the middle, furthermore, a threaded bore 52, which is provided with a head 54 by one Adjusting screw 53 is penetrated. On the adjusting screw 53 is also a Lock nut 56 arranged. For better guidance, the housing 41 also has a also provided with a threaded hole cylindrical projection 57, the the adjusting screw 53 also penetrates. The opposite of the head 54 The end of the adjusting screw 53 is rotatably connected to a plate 58. The plate 58 is slidably guided within the housing 41 and is completely withdrawn State sunk in the inner surface 59 of the housing 41. On the inner surface 59 has the housing 41 has two inwardly protruding pins in the region of its two ends 61, which penetrate and guide the web 39 inserted into the housing 41. In in the retracted state is the web 39, which extends over the entire height of the housing 41 extends, with its two ends on the inner surface 59, the pins ol not completely penetrate the web 30. The web 39 also fills the gap Width of the C-ehiuses 41 and is through the two longitudinal legs 43 led. The web provided with the bores 62 penetrating through the pins 61 39 has on its surface 63 facing the inner surface 59 of the housing 41 in the area its center has a cutout, de is slightly narrower than the plate 58 wide is. In contrast, the web 39 has a on its opposite surface 64 wider milled cutout that extends into the area of the bores 62. So lies the web 39 both on the plate 58 and on the centering strips 37, 38 only with relatively small but defined areas. Furthermore, the pressure Defined transferred from a central point to two further outlying areas.

The two centering bars 37, 38, of which the centering bar 38 shown in Fig. 6, are formed exactly the same. The two centering bars are only mirror images of each other. The centering strips 37, 38 extend extend over the entire height of the measuring ring 13 and each have two jaws 66, 67, which are arranged at the two ends of the centering strips 37, 38. The jaws 66, 67 are connected to one another by a web 68. The jaws 66, 67 are on that Face 69 beveled, which is then executed to the other jaw when the two Centering strips 37, 38 lie against one another. The bevel extends a little over half the width of the jaws 66, 67.

The shape of the jaws 66, 67 corresponds approximately to the Iso in cross section of a rectangle with an attached asymmetrical trapezoid, with that of the middle facing away surface is perpendicular. In the inclined surface 69 is a semi-cylindrical Groove 71 incorporated, which extends over the entire height of the jaws 66, 67. A sliding body 72 with an inclined sliding surface is firmly inserted into the groove 73, that of the inclined surface of the centering bar 22 corresponds, provided. The sliding bodies 72, like the sliding bodies 33, are originally cylindrical Pins and are subsequently provided with the sliding surface 73.

Just like the sliding surfaces 34, the sliding surfaces 73 have dirt grooves 74 provided, in the same number and shape as in the sliding surfaces 34. The Sliding bodies 72 are made of the same plastic as the sliding bodies 33 and therefore have the same properties.

Jaws 66,67 and web 68 are of the same width, but have a unteechiedl Ie depth so that the centering strips 37, 38 are approximately U-shaped. The width of two adjacent centering strips 37, 38 including a small air gap is approximately equal to the clear inside width of the housing 41. The depth of a web 68 plus the thickness of the web 39 plus the size of the adjustment corresponds to the clear width between the outer surface of the measuring ring 13 and the inner surface 59 of the housing 41. The centering strips 37, 38 are therefore within the housing 41 slidably guided. However, only the webs are found in the housing 41 itself 68 of the centering bars 37, 38 place. The jaws 66, 67 of the centering strips 37, 38 on the other hand penetrate the wall of the measuring ring 13.

For this purpose, the measuring ring 13 between the two longitudinal legs 43 of the Housing 41 in the area of its upper and lower edge each have a U-shaped Recess 76, 77 on.

The recesses 76, 77 correspond to the clear inside width of the housing 41, are so wide that the two centering strips 37, 38 are longitudinally displaceable. Furthermore, the recesses 76, 77 are as deep as the jaws 66, 67 are high. The measuring ring 13 remains in substantial areas of its height received as a closed ring.

The two centering strips 37, 38 limit with their inclined surfaces 69 thus an approximately triangular recess 78 into which the guide bar 22 of the Measuring column 12 engages.

If the adjusting screw 53 is unscrewed so far that the plate 58 is sunk in the transverse leg 44 of the housing 41, so the centering strips 37, 38 ond with them the web 39 are pushed back into the starting position. The web 39 lies completely against the inner surface 59 of the housing 41 and the end faces 79, 81 of the centering strips 37, 38 are in their retracted position, as are it is shown in FIG. 3. The end faces 79, 81 are located behind the corresponding ones End faces of the strips 48. Between the centering strips 37, 38 and the guide strip 22 there is a relatively large gap, so that in this starting position the measuring ring 13 can be pushed over the measuring column 12 without difficulty. If the adjusting screw 53 is now turned, the plate 58 moves inward. The movement of the plate 58 is on the web 39 and thus on the centering strips 37, 38 transferred. The centering bars 37, 38 approach the guide bar 22, the sliding bodies 72 with their sliding surfaces 73 against the guide strip 22 invest. The adjusting screw 53 is generally rotated so far that the self-locking the dead weight of the complete measuring ring 13 is reached. Now the measuring ring can easily moved up or down and into any position be brought to read the dial gauge. During an upward movement there is friction and own weight have to be overcome, only needs for a downward movement the friction to be overcome. The position of the centering strips 37, 38 on the Guide bar 32, in which self-locking is achieved, is shown in FIG. In this position, the end faces 79, 81 protrude over the corresponding end face Surfaces the last 48 out.

The support arm 14 is made in accordance with the exemplary embodiment shown in FIG. 1 from a horizontal arm 82 and a vertical arm 83, on which the dial gauge 16 is attached. The horizontal arm 82 is cylindrical and diametrical opposite the clamping device 23 and in the middle, that is, between the two carriers 28, 29 of the second guide 24 attached to the measuring ring 13. To this end, the horizontal Arm at its end facing the measuring ring 13, the end face corresponding to the Measuring ring 13 is concave, a threaded bolt 84 which has a bore penetrates in the measuring ring 13.

On the inside of the measuring ring 13 is on the threaded bolt 84 Screwed on nut 86, the height of which is less than the thickness of the supports 28, 29. The threaded bolt 84 does not protrude beyond the nut 86. The horizontal arm 82 has furthermore, three bores 87, 88, 89 running parallel to the measuring column 12, which are uniformly are arranged distributed over the length of the arm 82. Between the holes 87, 88, 89 extends a slot 91 which is parallel to the bores and up to free end of the arm 82 runs.

The bore 89 is arranged at the free end of the arm 82, the one has a smaller diameter than the rest of the arm 82. Between the bores 88 and 89 the free end is penetrated by a clamping screw 92 rotatable by hand. Another clamping screw 93 is arranged between the bores 87 and 88. In the bore 89 is a vertical arm 83 inserted, which at its end another Has bore and a clamping screw, so that there the dial gauge 16 on the vertical Arm 83 can be attached, as shown in FIG. To take advantage of the entire height range of the Measuring column 12 as the measuring range can vertical arm 83 instead of from below, as in FIG. 1, also from above into the horizontal arm 82 are inserted. For checking the perpendicularity of holes and the like, the vertical arm 83 can also be omitted and the dial indicator 16 directly be attached to the horizontal arm 82 so that the probe head 19 points downwards.

The device 11 according to the invention is designed so that the weight of the support arm 14 including the dial gauge 16 approximately equal to the weight of the clamping device 23 including housing 41 is. This ensures that the Measuring ring 13 cannot attack any tilting moment caused by the construction. On the housing 41, a pin 94 is provided below the adjusting device 42, on which If necessary, a dial gauge can also be attached.

The measuring ring 13 also has two approximately spherical handles 96, which are screwed to the measuring ring 13 by means of a threaded bolt 97. The one with the measuring ring 13 facing area of the handles 96 is flattened. The handles 96 are close the upper edge of the measuring ring 13 is arranged. The two handles 96 lie on top of one another opposite and are arranged offset by 900 to the support arm 14 or to the clamping device 23.

Claims (24)

Protection claims Device for measuring angular deviations, form errors of workpiece surfaces and the like with a flat measuring plate and a cylindrical measuring column, characterized in that A measuring ring (13) is provided which is guided on the Meij column (12) without play and that a commercially available dial gauge (16) is attached to the measuring ring (13). 2. Apparatus according to claim 1, characterized in that the measuring ring (13) with sliding surfaces (34,73) distributed around the circumference and arranged on the inner surface is provided. 3. Apparatus according to claim 2, characterized in that the sliding surfaces (34,73) arranged in the area of the upper and lower edge of the measuring ring (13) are. 4. Apparatus according to claim 1, characterized in that the measuring column (12) is provided with an index strip (22) and the measuring ring (13) is an index strip (22) having overlapping clamping device (23). 5. Apparatus according to claim 4, characterized in that the index bar (22) is attached to the measuring column (12) by means of a cold-curing compound. 6. Apparatus according to claim 4 or 5, characterized in that the index bar (22) is glued to the measuring column (12) over the entire length Height of the measuring column (12) extends and is finely machined. 7. Apparatus according to claim 4, 5 or 6, characterized in that that the index bar (22) has an approximately trapezoidal shape, the wider one Surface rests against the wall of the measuring column (12). 8. Apparatus according to claim 4, characterized in that the clamping device (23) at least up to the self-locking of the dead weight of the complete measuring ring (13) is adjustable. 9. Apparatus according to claim 4, characterized in that the clamping device (23) has sliding surfaces (73) in the area of the upper and lower edge of the Measuring ring (13) are arranged. 10. Device according to one of the preceding claims, characterized in that that the sliding surfaces (34, 73) consist of a plastic, 11. Device according to one of the preceding claims, characterized in that the sliding surfaces (34, 73) have dirt grooves (36, 74) extending transversely to the sliding direction. 12. Device according to one of the preceding claims, characterized in that that one of the sliding surfaces (34) of the clamping device (23) is diametrically opposite is arranged and that the other two sliding surfaces (34) on both sides of the first sliding surface angularly, preferably offset by 600, are arranged. 13. Device according to one of the preceding claims, characterized in that that the clamping device (23) has two centering strips (37,38) on the measuring ring (T'3) are movably guided and that the centering strips (37,38) on their the measuring column (12) have an approximately triangular incision (78) facing the side, the the index bar (22) and on its inclined sides (69) the sliding surfaces (73) are provided. 14. The apparatus according to claim 13, characterized in that the Centering strips (37, 38) in a housing attached to the outer circumference of the measuring ring (13) (41) are arranged and that an adjusting screw (53) is arranged on the housing (41) is. 15. Apparatus according to claim 13 or 14, characterized in that that the centering strip (37,38) has two jaws (66,67) which are supported by a web (68) are interconnected and that the jaws (66,67) the measuring ring (13) in the area penetrate the upper and lower edge. 16. Device according to one of claims 13 to 15, characterized in that that between adjusting screw (53) and centering strips (37,38) a slidable plate (39) is arranged, which is in the area between the bearing surfaces with cutouts is provided. 17. Device according to one of the preceding claims, characterized in that that the measuring column (12) has a high dead weight, an optimal ratio of base area too high and has a finely machined base and cylindrical surface. 18. The device according to claim 17, characterized in that the Stability of the measuring column (12) is such that when a force is applied to the measuring ring (13) from the area of self-locking of its own weight on the To move the measuring column (12), the deviation from the vertical is a maximum of 1 mm. 19. Apparatus according to claim 17 or 18, characterized in that that the measuring column (12) at a height of 400 mm or 500 mm has a diameter of 100mm or 120 mm and that the measuring column (12) has its own weight with such dimensions of about 16 kg and 21 kg respectively. 20. The device according to claim 19, characterized in that the Measuring ring (13) has a height of about 80 mm. 21. Device according to one of the preceding claims, characterized in that that the measuring ring (13) has a support arm (14) for the dial gauge (16) that of the clamping device (23) is arranged diametrically opposite. 22. The apparatus according to claim 21, characterized in that the The ratio of the inner diameter of the measuring ring to the length of the support arm is about 2: 1. 23. Device according to one of the preceding claims, characterized in that that the measuring ring (135 has two handles (96) offset by 500 to the clamping device (23) and on the upper edge of the measuring ring (13) are arranged. 24. Device according to one of the preceding claims, characterized in that that the support arm (14) including dial gauge (16) and the clamping device (23) including Housing (41) have essentially the same weight. L e r s e i t e